178 lines
6.1 KiB
C++
178 lines
6.1 KiB
C++
// Copyright (c) 2011 The Chromium Authors. All rights reserved.
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// Use of this source code is governed by a BSD-style license that can be
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// found in the LICENSE file.
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#include "crypto/p224_spake.h"
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#include <stddef.h>
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#include <stdint.h>
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#include <string>
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#include "base/logging.h"
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#include "base/strings/string_number_conversions.h"
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#include "testing/gtest/include/gtest/gtest.h"
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namespace crypto {
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namespace {
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std::string HexEncodeString(const std::string& binary_data) {
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return base::HexEncode(binary_data.c_str(), binary_data.size());
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}
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bool RunExchange(P224EncryptedKeyExchange* client,
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P224EncryptedKeyExchange* server,
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bool is_password_same) {
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for (;;) {
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std::string client_message, server_message;
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client_message = client->GetNextMessage();
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server_message = server->GetNextMessage();
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P224EncryptedKeyExchange::Result client_result, server_result;
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client_result = client->ProcessMessage(server_message);
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server_result = server->ProcessMessage(client_message);
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// Check that we never hit the case where only one succeeds.
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EXPECT_EQ(client_result == P224EncryptedKeyExchange::kResultSuccess,
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server_result == P224EncryptedKeyExchange::kResultSuccess);
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if (client_result == P224EncryptedKeyExchange::kResultFailed ||
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server_result == P224EncryptedKeyExchange::kResultFailed) {
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return false;
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}
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EXPECT_EQ(is_password_same,
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client->GetUnverifiedKey() == server->GetUnverifiedKey());
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if (client_result == P224EncryptedKeyExchange::kResultSuccess &&
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server_result == P224EncryptedKeyExchange::kResultSuccess) {
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return true;
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}
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EXPECT_EQ(P224EncryptedKeyExchange::kResultPending, client_result);
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EXPECT_EQ(P224EncryptedKeyExchange::kResultPending, server_result);
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}
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}
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const char kPassword[] = "foo";
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} // namespace
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TEST(MutualAuth, CorrectAuth) {
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P224EncryptedKeyExchange client(
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P224EncryptedKeyExchange::kPeerTypeClient, kPassword);
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P224EncryptedKeyExchange server(
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P224EncryptedKeyExchange::kPeerTypeServer, kPassword);
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EXPECT_TRUE(RunExchange(&client, &server, true));
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EXPECT_EQ(client.GetKey(), server.GetKey());
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}
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TEST(MutualAuth, IncorrectPassword) {
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P224EncryptedKeyExchange client(
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P224EncryptedKeyExchange::kPeerTypeClient,
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kPassword);
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P224EncryptedKeyExchange server(
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P224EncryptedKeyExchange::kPeerTypeServer,
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"wrongpassword");
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EXPECT_FALSE(RunExchange(&client, &server, false));
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}
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TEST(MutualAuth, ExpectedValues) {
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P224EncryptedKeyExchange client(P224EncryptedKeyExchange::kPeerTypeClient,
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kPassword);
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client.SetXForTesting("Client x");
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P224EncryptedKeyExchange server(P224EncryptedKeyExchange::kPeerTypeServer,
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kPassword);
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server.SetXForTesting("Server x");
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std::string client_message = client.GetNextMessage();
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EXPECT_EQ(
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"3508EF7DECC8AB9F9C439FBB0154288BBECC0A82E8448F4CF29554EB"
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"BE9D486686226255EAD1D077C635B1A41F46AC91D7F7F32CED9EC3E0",
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HexEncodeString(client_message));
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std::string server_message = server.GetNextMessage();
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EXPECT_EQ(
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"A3088C18B75D2C2B107105661AEC85424777475EB29F1DDFB8C14AFB"
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"F1603D0DF38413A00F420ACF2059E7997C935F5A957A193D09A2B584",
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HexEncodeString(server_message));
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EXPECT_EQ(P224EncryptedKeyExchange::kResultPending,
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client.ProcessMessage(server_message));
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EXPECT_EQ(P224EncryptedKeyExchange::kResultPending,
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server.ProcessMessage(client_message));
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EXPECT_EQ(client.GetUnverifiedKey(), server.GetUnverifiedKey());
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// Must stay the same. External implementations should be able to pair with.
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EXPECT_EQ(
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"CE7CCFC435CDA4F01EC8826788B1F8B82EF7D550A34696B371096E64"
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"C487D4FE193F7D1A6FF6820BC7F807796BA3889E8F999BBDEFC32FFA",
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HexEncodeString(server.GetUnverifiedKey()));
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EXPECT_TRUE(RunExchange(&client, &server, true));
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EXPECT_EQ(client.GetKey(), server.GetKey());
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}
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TEST(MutualAuth, Fuzz) {
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static const unsigned kIterations = 40;
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for (unsigned i = 0; i < kIterations; i++) {
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P224EncryptedKeyExchange client(
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P224EncryptedKeyExchange::kPeerTypeClient, kPassword);
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P224EncryptedKeyExchange server(
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P224EncryptedKeyExchange::kPeerTypeServer, kPassword);
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// We'll only be testing small values of i, but we don't want that to bias
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// the test coverage. So we disperse the value of i by multiplying by the
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// FNV, 32-bit prime, producing a simplistic PRNG.
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const uint32_t rand = i * 16777619;
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for (unsigned round = 0;; round++) {
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std::string client_message, server_message;
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client_message = client.GetNextMessage();
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server_message = server.GetNextMessage();
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if ((rand & 1) == round) {
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const bool server_or_client = rand & 2;
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std::string* m = server_or_client ? &server_message : &client_message;
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if (rand & 4) {
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// Truncate
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*m = m->substr(0, (i >> 3) % m->size());
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} else {
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// Corrupt
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const size_t bits = m->size() * 8;
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const size_t bit_to_corrupt = (rand >> 3) % bits;
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const_cast<char*>(m->data())[bit_to_corrupt / 8] ^=
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1 << (bit_to_corrupt % 8);
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}
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}
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P224EncryptedKeyExchange::Result client_result, server_result;
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client_result = client.ProcessMessage(server_message);
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server_result = server.ProcessMessage(client_message);
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// If we have corrupted anything, we expect the authentication to fail,
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// although one side can succeed if we happen to corrupt the second round
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// message to the other.
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ASSERT_FALSE(
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client_result == P224EncryptedKeyExchange::kResultSuccess &&
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server_result == P224EncryptedKeyExchange::kResultSuccess);
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if (client_result == P224EncryptedKeyExchange::kResultFailed ||
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server_result == P224EncryptedKeyExchange::kResultFailed) {
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break;
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}
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ASSERT_EQ(P224EncryptedKeyExchange::kResultPending,
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client_result);
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ASSERT_EQ(P224EncryptedKeyExchange::kResultPending,
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server_result);
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}
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}
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}
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} // namespace crypto
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